Footwear Heel

ABSTRACT

A heel for footwears including a body ( 1 ) and an elongated support portion ( 1   a ) wherein a rigid reinforcing core ( 2 ) is embedded and has a stem-like structure with a substantially frusto-conical cross section.

FIELD OF THE INVENTION

The present invention relates generally to the field of footwear, in particular woman's footwear, and more in particular relates to a heel for footwear, especially a so called stiletto heel.

BACKGROUND OF THE INVENTION

As known in the field of footwear, a stiletto heel is a type of high heel, essentially for woman's footwear, featured by a high height/section ratio. Though all high heels require suitable means for their reinforcement, this is absolutely indispensable in the case of stiletto heels, in view of their slenderness, which makes them insufficiently resistant to shear stress and bending. Normally in order to increase the mechanical strength of high heels in general and of stiletto heel in particular, it is customary to reinforce them by a core made of rigid, generally metallic material. Examples of these reinforcing cores are illustrated for instance in the British patents n. GB 2012557 and 2063645. In these cases the reinforcing core is made up of a steel tubular member having a longitudinal slit, as the core is obtained by bending of a rectangular stripe. The tubular reinforcement member is embedded in the heel when it is injection moulded and then is finished with a heel tip having a shank forcibly engaged within the tubular member.

In the specific case of high heels the needs for lightness and resistance, which have to be both satisfied, are seriously hindered by the fact that the reinforcing core section has to be particularly small. This definitely implies that no one of the high heels which are now available on the market meet the resistance provision set forth in ISO standards EN-ISO.19956/04, unless either increasing the reinforcing core section but losing high heel's slenderness, or using high resistance materials, such as steel, but in this way negatively affecting heel lightness.

SUMMARY OF THE INVENTION

The object of the present invention is to provide a heel for footwear, in particular a stiletto heel, which has high lightness and, at the same time, mechanical resistance to shear and bending stress.

Another object of the present invention is to provide a heel of above mentioned type which meets the requirements of EN-ISO 19956/04 in the matter of fatigue strength.

These objects are achieved with the heel for footwear according to the invention, which includes a body and an elongated support portion wherein a rigid reinforcing core is embedded. According to the invention, the core has a stem-like structure with a substantially frustoconical cross section. Furthermore the reinforcing core is preferably made of ERGAL 7075.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will now be illustrated more in detail by the following description of an exemplifying, non-limiting embodiment thereof, with reference to the attached drawings, in which:

FIG. 1 is a partially exploded sectional view of a heel for footwear in accordance with the invention;

FIG. 2 shows a perspective view of the reinforcing core of the heel shown in FIG. 1.

DETAILED DESCRIPTION OF THE INVENTION

Referring to the aforesaid figures, it has been indicated at 1 a body of a stiletto heel obtained by injection molding in a conventional way, and at 2 a reinforcing core included in its elongated support portion 1 a during the injection moulding manufacturing process.

The reinforcing core 2 comprises a stem 3, with a substantially frustoconical section, ending with an head 4 of larger cross-section. The stem 3 has a length and a section suitable for allowing it to be embedded into a stiletto heel of conventional size.

The core 2 develops from a lower end 3 a of the stem 3 with a first stem portion 5 a that has a very low conicity and is radiused to a second stem portion 5 b of greater conicity. The head 4 extends from the upper end 3 b of the stem 3.

It is very important that the stem portions 5 a and 5 b with different conicity would be joined without discontinuity so as to avoid any presence of critical sections, on which outward stresses can concentrate, along the stem 3 of the core 2. To this end the reinforcing core conicity preferably increases from its lower end 3 a, which is the one with the lowest section.

In a preferred embodiment of the invention the profile of the stem 3 is in the shape of an arc of circumference radiusing the lower end 3 a to the upper end 3 b of the stem 3. In particular said arc of circumference is substantially tangent to the line perpendicular to the lower end 3 a of the stem 3 intersecting the stem lower end at the edge thereof. In order to maintain the same ratio between the radius of the lower end 3 a and the radius of the upper end 3 b for varying heights of the stem 3, the radius of curvature of the arc-shaped profile of the stem 3 has to be increased as a function of the stem height.

According to an important feature of the invention, optimum results are obtained with the above described shape of the reinforcing core 2 and using a metallic material with adequate resistance and lightness, such as in particular the aluminium alloy known as ERGAL 7075. Obviously materials having equivalent mechanical features and lightness can be used as an alternative.

The tests carried out on high heels according to the aforementioned ISO standards, have shown that the resistance requirements are widely fulfilled, in particular referring to the repeated shear fatigue resistance test, which provides that the resistance threshold is to be higher than 14,000 strokes.

Various modification and alterations to the invention may be appreciated based on a review of the disclosure. These changes and additions are intended to be within the scope and spirit of the invention as defined by the following claims. 

1. A heel for footwear comprising a body and an elongated support portion wherein a rigid reinforcing core is embedded, the reinforcing core having a stem-like structure with a substantially frusto-conical cross section.
 2. The heel set forth in claim 1, wherein the reinforcing core is made of ERGAL
 7075. 3. The heel set forth in claim 1, wherein the reinforcing core comprises a stem with a lower end and an upper end, the lower end being formed with a bore, in which a shank of a heel tip is forcibly engaged, the upper end being formed with an enlarged head to secure the reinforcing core into the heel body.
 4. The heel set forth in claim 1, wherein the stem has a conicity increasing without interruption from the lower end.
 5. The heel set forth in claim 1, wherein the profile of the stem is in the shape of an arc of circumference radiusing the lower end to the upper end.
 6. The heel set forth in claim 5, wherein the arc is substantially tangential to the perpendicular of the lower end of the stem intersecting the stem lower end at the edge thereof. 